經濟部中央橾準局貝工消費合作社印装 4 4 6 8 3 8 a7 _B7五、發明説明(1 ) <發明所屬之技術領域> 本發明乃與驅動用I c,液晶面板,於液晶面板上搭 載液晶驅動用I C所形成之液晶裝置,及使用此液晶裝置 之電子機器有關。 <習知技術> 近年,於行動電話,數位相機,錄影機,其他各種電 子機器用之作爲可視資訊顯示部之液晶裝置廣爲應用。在 行動電話上使用液晶裝置時,係爲了顯示電話號碼及其他 資訊而使用液晶裝置β又,於數位相機或錄影機等使用液 晶裝置時,則多作爲確認被攝物之取景器而使用液晶裝置 0 液晶裝置一般係藉將驅動用IC實裝於_液晶面板而形 成。特別是,於行動電話所代表之可播式資訊終端裝置中 *因價格低,耗電少之優點,使用小型之液晶裝置。這些 小型之液晶裝置一般係以一個驅動用IC即一個晶片之 I C驅動,而最近,在液晶面板自體上直接搭載驅動用 I C之方式之液晶裝置,即COG (Chip On Grass)方 式之液晶裝置則漸普及。 此COG方式之液晶裝置係將驅動用IC直接接著於 液晶面板之透明基板上。而於此時,將驅動用I C上所設 之電極端子,即突塊或薄片,與透明基板上所形成之電極 予以電氣連接,即予以導電連接。如圓8所示驅動用 I C 5 1 ,一般具有在液晶面板側之掃描電極Psi上予以 本紙張尺度適用中两國家揉準(CNS ) A4規格(2丨0X297公釐) (諳先Μ讀背面之注意事項再填寫本頁) -4 - 〃 446838 A7 B7 經濟部中央標準局—工消费合作社印裂 五、兮明説明(2 ) 導電連接之信號電極用電極端子Bsi,及在液晶面板之掃 描電極P so上予以導電連接之掃描電極用電極端子B so β 而習知之驅動用I C 5 1則係信號電極用電極端子Bsi及 掃描電極用電極端子B so係以與信號電極用電極端子B si 彼此間之間距及掃描電極用電極端子B so彼此間之相同之 間距鄰接。此閭距,一般係爲80〜1 2 Ojum * <發明所欲解決之課題> 於通常之液晶裝置之製程中,爲檢査液晶面板是否具 有所期望之顯示特性,於液晶面板中裝著驅動用I C前, 於其液晶面板之信號電極P si及掃描電極P so上附加所定 之電壓,將其液晶面板以單體檢査者爲多。而於此種附加 所定之電壓之情況,使信號電極用導電性構件5 3si接觸 信號電極Psi,使掃描電極用導電性構件5 3 so接觸掃描 電極P so,而藉這些導電性構件5 3si及5 3 so以顯示檢 査用電路5 2於各電極Psi及Pso附加所定之電壓。 然而,關於上記習知之使用驅動用I C 5 1之液晶面 板進行檢査之情況,其習知之驅動用I C 5 1係信號電極 用電極端子Bsi及掃描電極用電極端子B so各個電極端子 彼此間之間距與同樣之間距鄰接之故,使這些電極端子之 界限部分所存在之全部之電極端子所對應之各電極P si及 P so之各個與導電性構件5 3 si及5 3 so接觸,這些導電 性構件5 3si及5 3 so會相互接觸而短路,而使得無法檢 査。又·爲避免其短路,將信號電極用導電性構件5 3si (請先聞讀背面之注意事項再填寫本頁) 本纸張尺度適用中8®家揉準(CNS > A4规格(210X297公釐) -5 - 經濟部中央揉率扃負工消費合作社印製 44683 8 A7 _B7五、發明説明(3 ) 與掃描電極用導電性構件5 3 s〇之間間隔做寬’則於不存 在這些導電性構件之電極部分上會無法附加所定之電壓’ 使得液晶面板之顯示區之中之一部分會有無法顯示之問題 〇 關於此種使用習知之魘動用I C之液晶面板,對應於 無法使導電性構件5 3si及5 3 so接觸之電極部分之液晶 面板有不良時,無法發現其不良,結果,最後所得之液晶 裝置有液晶面板不良使得良品率較低,而致使成本增加之 問題產生。 本發明乃鑑於上記問題點而成,於檢査液晶面板之顯 示特性時,以可使其液晶面板之顯示區之全部顯示而檢査 爲目的。又,本發明藉將實裝驅劻用I C時之不良之液晶 面板確實地排除,而以提供低價格之液晶裝置爲目的° <解決課題之方法> 本發明所關之驅動用Ic係爲用以驅動具備複數之掃 描電極及複數之信號電極之液晶面板之驅動用I C,具有 用以與各別之複數之掃描電極予以電氣連接之複數之掃描 電極用電極端子,及用以與各別之複數之信號電極予以電 氣連接之複數之信號電極用電極端子。而此驅動用1 C係 爲在相鄰掃之描電極用電極端子與信號電極用電極端子之 間,形成比掃描電極用電極端子彼此之間隔及信號電極用 電極端子彼此之間隔更寬之間隔。 如此在信號電極用電極端子與掃描電極用電極端子之 (請先Μ讀背面之注意事項再填窝本頁) 本紙張尺度通用中國國家橾準(CNS ) Α4规格(2丨ΟΧ297公釐} 44683 8 經濟部中央橾準局負工消费合作社印裝 A7 B7五、發明説明(4 ) « 間設寬間隔,則與這些専電連接之液晶面板側之信號電極 與掃描電極之間亦可形成寬間隔*其結果,爲了檢査液晶 面板使這些信號電極及掃描電極與導電性構件接觸時,即 使將包含存在於這些界限部分之電極之部m極與導電性構 件接觸*亦可於信號電極用導電性構件與掃描電極用導電 性構件之間經常維持電氣絕緣用之空間。即,不會使信號 電極用導電性構件與掃描電極用導電性構件短路,可對全 部之信號電極將信號電極用導電性構件導通,進而,可對 全部之掃描電極將掃描電極用導電性構件導通,因此,可 使液晶面板之顯示區全部顯示檢査用之影像,而可檢査此 液晶面板之顯示特性之良否。 於驅動用Ic中之電極端子之配列方法有各種方法。 例如,如圖2及圊4所示,將掃描電極用電極端子B so及 信號電極用電極端子Bsi沿驅動用I C 1 1及2 1之一個 之相同邊成列狀排列,於這些電極端子B so及B si之閭, 可形成比掃描電極用電極端子彼此之間隔及信號電極用電 極端子彼此之間隔更寬之間隔A * 信號電極用電極端子及掃描電極用電極端子之間所設 間隔並不限於特定之值,但例如可做成0·3mm以上之 值,理想爲約0 3mm。0 · 3mm爲理想之理由爲下 記《即,於圖2中,液晶面板之透明基板上所形成之信號 電極P si及掃描電極P so之製造上可容許之尺寸誤差,即 自液晶面板之基準外型面之尺寸標準誤差(以下稱「公差 」)係以土〇·1mm程度爲可製造之最小值。故,信號 (請先閲讀背面之注意事項再填寫本頁) k· 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) -7 - 4468 3 8 a? B7 五、發明説明(5 ) 電極Psi及掃描電極P so對導電性構件1 3 si及1 3 so之 公差內之最大值,即,即使於只偏差0.1mm之情況下 爲使這些電極Psi及P so不向導電性構件Bsi及1 3 so 之外側偏出,導電性構件1 3si及1 3 so自配設電極Psi 及Pso之區域之信號電極區Qsi及掃描電極區Q so突出之 距離,即,自電極端子Bsi及B so突出之距離a有必要設 定爲a = 0 . 1mm。又,爲防止相鄰之導電性構件 1 3 s i及1 3 so相互接觸·必須將這些之間最小要隔開 0 . 1mm程度之間隔b。由上,信號電極用電極端子 Bsi及掃描電極用電極端子B so之間之間隔A最小亦需要 爲 A=a + b + a = 〇. 1 + 〇· 1 + 0. 1 = 0.3。 經濟部中央揉準局貝工消费合作社印簟 {請先閲讀背面之注$項再填寫本頁) 又,信號電極用電極端子B Si及掃描電極用電極端子 B so之間所設之間隔A,可做成〇 . 6mm以上。例如, 做成0 . 6mm,則將導電性構件1 3si及1 3 so之電極 子Bsi及Bso之容許突出尺寸a可做成a = 0 . 2mm, 相鄰導電性構件1 3si及1 3 so彼此之間隔b可做成t)= 0 . 2mm之故,液晶面板上所形成之信號電極及掃描電 極之尺寸公差可加寬至±0.2mm爲止,故,液晶面板 之製造變簡單。當然,以液晶單體檢査其顯示特性時,可 確實防止信號電極用導電性構件與掃描電極導電性構件短 路,且,可對全部之信號電極導通信號電極用導電性構件 ,又,亦可對全部之掃描電極導通掃描電極用導電性構件 〇 進而,信號電極用電極端子Bsi與掃描電極用電極端 本紙張尺度逍用中國國家標準(CNS ) A4規淋(210X297公釐} -8 ~ 經濟部中央樣準局貝工消费合作社印笨 * 4468 3 8 A7 _B7五、舞明説明(6 ) 子Bso之間所設之間隔可做成1 · Omm以上》例如做成 1 · 0 m τη,則對導電性構件1 3 si及1 3 so之信號電極 Bsi及BS0之容許突出尺寸a可做成a = 0 . 3 5mm, 相鄰導電性構件1 3 si及1 3 so彼此間之間隔b可做成b =0.3mm之故,液晶面板上所形成之信號電極及掃描 電極之尺寸公差可加寬至±0 . 35mm,故,液晶面板 之製造可更簡單。當然,信號電極用導電性構件及掃描電 極用導電性構件之短路可大致完全防止,且*對全部之信 號電極可大致完全導通信號電極用導電性構件,進而,對 全部之掃描電極可大致完全導通掃描電極用導電性構件。 次之,本發明之液晶面板•係具有挾持液晶相對向之 一對之透明性基板之液晶面板,具備形成於這些透明性基 板之中之一方之複數之掃描電極•及形成於這些透光性基 板之中之另一於複數之信號電極,及形成於這些透光性基 板之中之任一方之以裝著驅動用IC之IC裝著區。而* 上記複數之掃描電極及上記複數之信號電極乃延伸至上記 I C裝著區爲止*進而,於此I C裝著區內相鄰之掃描電 極與信號電極之間,形成比掃描電極彼此之間隔及信號電 極彼此之間隔更寬之間隔。此處,「透光性」乃指無色透 明,及有色透明兩種情況。 如此將信號電極與掃描電極之間形成寬間隔的話,即 使使信號電極全部與信號電極用導電性構件接觸,同時, 使掃描電極全部與掃描電極用導電性構件接觸,信號電極 用導電性構件與掃描電極用導電性構件之間亦可經常維持 (请先《讀背面之注f項再填寫本頁) 本紙張尺度逋用中國國家標率(CNS ) A4规格(210X297公釐) -9 - 4468 3 8 經濟部中央搮準局貝工消费合作社印策 A7 B7五、發明説明(7 ) « 電氣絕緣用之空間》即,信號電極用導電性構件與掃描電 極用導電性構件不會短路,可對全部之信號電極導通信號 電極用導電性構件,進而可對全部之掃描電極導通掃描電 極用導電性構件,因此,可以液晶面板單體檢查全部之顯 示區之顯示特性之良否· 液晶面板之信號電極及掃描電極之配列方法可考慮各 種方法。例如圖2或圓4所示,將掃描電極P so及信號電 極Psi沿用以裝著驅動用I C 1 1或2 1之I C裝著區之 一個之相同邊成列狀排列,此I C裝著蓝內之這些電極 P so及Psi之間,可形成比掃描電極彼此之間隔及信號電 極彼此之間隔更寬之間隔。 又,此配列方法以外,如圖5所示,將掃描電極P so 及信號電極Psi,各別沿I C裝著區之相鄰各不同邊設置 ,於這些電極P so及Psi之間,可形成比掃描電極彼此之 間隔及信號電極彼此之間隔更寬之間隔A。 於上記液晶面板中,I C裝著區內之掃描電極區Q so 及信號電極區Qsi之間之間隔與掃描電極用電極端子B so 及信號電極用電極端子Bsi之間之間隔A相等,其值可做 成〇 . 3mm以上,0 . 6mm以上或1 Omm以上之 值。各值之理由與上述驅動用1 c之情況相對之相同值之 理由相同。 次之,本發明之液晶裝置,具有當有挾持液晶之相對 向之一對透光性基板之液晶面板’及搭載於這些透光性基 板之至少一者之驅動用I c ·而•此液晶面板具有形成於 Ϊ紙張尺度逍用中圉國家標準(CNS ) A4規格(210X297公釐) {請先閱讀背面之注$項再填寫本頁) 訂 -10 - 4468 3 8 經濟部中央樣準扃負工消费合作社印製 A7 B7五、斧明説明(8 ) 這些透光性基板之中之一方之複數之掃描電極,及形成於 這些透光性基板之另一方之複數之信號電極,及形成於這 些透光性基板之任一方之用以裝著驅動用Ic之IC裝著 區。而,上記複數之掃描電極及上記複數之信號電極及延 伸至上記I c裝著區爲止地被形成。 另一方面,上記驅動用I C具有與上記複數之掃描電 極各別電氣連接之複數之掃描電極用電極端子,及與上記 複數之信號電極各別電氣連接之複數之信號電極用電極端 子,而相鄰之掃描電極用電極端子與信號電極用電極端子 之間,形成比掃描電極用電極端子彼此之間隔及信號電極 用電極端子彼此之間隔更寬之間隔*而進一步,藉驅動用 I C之掃描電極用電極端子上導電連接液晶面板之掃描電 極,驅動用I C之信號電極用電極端子上導電連接液晶面 板之信號電極,而構成液晶裝置· 其次,本發明之電子機器,具有上記之液晶裝置*及 供給此液晶裝置電力之電源部,及控制此液晶裝置之動作 之控制部》具體上,可於行動電話,數位相機,錄影機及 其他各種電子機器之作爲可視資訊顯示部而使用上記之液 晶裝置。 <發明之實施形態> <第1實施例> 圖1表示本發明之驅動用I C,液晶面板及液晶裝置 之各別之一實施例。此處所示之液晶裝置1乃於液晶面板 本紙張尺度遍用中國國家樣準(CNS ) A4规格(210X297公釐) (請先閲讀背面之注f項再填寫本頁) -11 - 4468 3 8 經濟部中央樣準局貝工消费合作社印装 A7 _ B7_五、發明説明(9 ) 5上搭載驅動用I C 1 1而形成。液晶面板5具有相互對 向之一對透明基板2 a及2 b,這些透明基板2 a及2 b ,如圖3所示藉隔板7保持極小之間隙G之狀態下藉膜材 3互相接著。此間隔G —般稱爲CELL GAP *此G內封入液 晶4。透明基板2 a及2 b之外側表面上’因應必要貼著 偏光板6,6,進而對在—方之透明基板設有背景光或反 射板。 一方之透明基板2 a之內側表面上形成複數之信號電 極Psi*另一方之透明基板2 b之內側表面上形成複數之 掃描電極P so。這些電極’例如藉1 TO (Indium Tin Oxide)形成條狀,接著如圖1所示,兩透明基板2 a及 2 b於接著狀態相互垂直。這些掃描電極P so與信號電極 P si之交叉點係作爲用以液晶顯示之畫素而作用· —方之透明基板2 a乃向對方側之透明基板2 b_之外 側突出,此突出部上設定長方形之I C裝著區B ’此I C 裝著區B上接著驅動用I C 1 1。信號電極Psi依原狀地 延伸至I C裝著區B爲止。另一方面,掃描電極P so乃經 由跨於兩透明基板2 a及2 b之間之導通材8延伸至I C 裝著區B爲止。驅動用I Cl 1乃如圖3所示,藉ACF (Antisotropic Conductive Film:異方性導電膜)9 或 其他之接合劑接著於透明基板2 a上· 驅動用I C 1 1之透明基板2 a之相對向之面,即可 動面上,如圖2所示,形成複數之信號電極用電極端子, 即信號電極用突塊Bsi,及複數之掃描電極用電極端子, 本紙張尺度適用中國國家標準(CNS ) A4说格(210X297公釐) (讀先《讀背面之注意事項再填寫本頁) -12 - 4468 3 8 經濟部中央標準扃男工消費合作社印$ί A7 _B7五、發明説明(10 ) 即掃描電極用突塊Bsi。信號電極用突塊Bsi係將驅動用 I C 1 1之內部電路與信號電極Psi予以導電連接,掃描 電極用突塊B so係將驅動用I C 1 1之內部電路與掃插電 極P so予以導電連接。 本實施例中,信號電極用突塊Bsi彼此及掃描電極用 突塊B so彼此•各別以狹窄之間距,例如8 0〜1 2 0 从m之間距配列’故,各突塊間之間隔亦與其對應地變窄 。對此,信號電極用突塊Bsi與掃描電極用突塊Bs0之間 之間隔A ·比同種類之電極彼此之間隔更寬,例如設定爲 約〇 . 3 mm。另,配設信號電極Psi之區域之信號電極 區Qsi及配設掃描電極P so之區域之掃描電極區Q so之間 之間隔,與信號電極用端子Bsi及掃描電極用端子B so之 間之間隔A成相等。 本實施例之驅動用I C,液晶面板及液晶裝置乃由如 上構成之故,將驅動用I C 1 1裝著於液晶面板5前’以 液晶單體予以檢査液晶面板5之顯示特性時,如圓2所示 ,預先所定之位置設置信號電極用導電性構件1 3 si及 掃描電極用導電性構件1 3 so,使此信號電極用導電性構 件1 3si與信號電極Psi接觸,使掃描電極用導電構件 1 3 so與掃描電極P so接觸。各導電性構件13si及 1 3 so可使用導電橡膠,橡皮連結器* A C F等各種構件 ,本實例係使用構造簡單且價廉之導電橡膠* 另,導電橡膠係爲整體具備均一之導電性之橡膠構件 ,將其放置於複數之電極上,這些電極會成短路*又,橡 --------- -------ΐτ------V {請先閲讀背面之注意事項再填寫本頁) 本紙伕尺度適用中國國家梯準(CNS ) Α4規格(2丨0 X 297公釐) 4468 3 8 經濟部中央標率局貝工消費合作社印策 A7 _B7_五、兹;明説明(11 ) 皮連結器係爲在絕緣性之彈性構件中將導電性材料隔適宜 之間隔排列而形成之連結器。藉導電性材料連接之端子彼 此成導電狀態,但不介存有導笔性材料之端子彼此則維持 非導通狀態》又,A C F則爲於絕緣性之樹脂材料中混雜 導電性粒子而形成之膜構件,使介存有導電性粒子之端子 彼此導逋,而維持不介存有導電性粒子之端子彼此爲非導 通狀態之構件· 如上記之各電極Psi及Pso各別與各導電性構件 1 3 si及1 3 so接觸後,自顯示檢査電路1 4向各導電性 構件1 3 si及1 3 so附加所定之電壓,藉此,於液晶面板 5之各畫素上進行所定之顯示,如白色或黑色•此顯示藉 相機或目視觀察,而判別液晶面板5之顯示區內是否有缺 點。 本實施例係如上記,關於驅動用I C 1 1 ,於信號電 極用突塊Bsi及掃描電極用突塊BS0之間設寬間隔A,與 此對應於液晶面板5於信號電極區Q si及掃描電極區Q so 之間同樣地設寬間隔A之故,藉將信號電極導電構件 1 3si做成比信號電極區Qsi梢長。可補償信號電極用導 電構件1 3si與信號電極區Qsi之位置偏移,而可將信號 電極Psi之全部以信號電極用導電構件覆蓋β又,藉將掃 描電極甩導電構件1 3 so做成比掃描電極區Q so稍長,可 補償掃描電極用導電構件1 3 so與掃描電極區Q so之位置 偏移,而可將掃描電極P so之全部以掃描電極用導電構件 覆蓋。因此,即使如此將各電極Psi及P so之全部以各導 (請先聞讀背面之注意事項再填寫本頁) 訂 本紙張尺度逋用中國國家操準(CNS > A4規格(210X297公釐) -14 - 4468 3 8 經濟部中央標準局貝工消費合作社印製 A7 ___B7五、兮明説明(12 ) 電構件1 3si及1 3 so覆蓋’兩導電構件1 3si及1 3s〇 之間隔有空間,可將兩者維持於電氣絕緣狀態。這些結果 ,可於全部之信號電極Psi及掃描電極P so上附加所定之 檢查用電壓,故,可對液晶面板之全部之顯示菡檢査顯示 特性之良否》 另,信號電極用突塊Bsi與掃描電極用突塊B so之間 之間隔A及信號電極區Qsi與掃描電極區Q so之間之間隔 若設定爲0 · 3mm,則信號電極用導電構件1 3si可比 信號電極區Qsi單側長約0 . 1mm,掃描電極用導電構 件1 3 so可比掃描電極區Q so單側長約〇 _ 1mm,故* 信號電極用導電構件1 3si與掃描電極用導電構件1 3 so 之間隔可設定爲約0.lmm*各構件之尺寸關係若設定 如上,則對液晶面板之基準外型面之信號電極區Qsi或掃 描電極區Qso之位置偏移成爲±〇 . 1mm·此公差在現 今之液晶面板之製造技術上乃爲可實現之最小之公差。 本實施例,如上檢査液晶面板單體之顯示特性後*因 將驅動用I C實裝於此液晶面板之故,不會將驅動用I C 實裝於不良之液晶面板•故,可製作低價格之液晶裝置。 <第2實施例> 圖4表示本發明之驅動用IC及液晶面板各別之其他 實施例之要部。此實施例之驅動用I C 2 1與圖2所示之 先前之驅動用I C 1 1之不同點爲,將信號電極用突塊 Bsi及掃描電極用突塊B so,集中於驅動用I C 2 1之同 本紙張尺度適用中國因家標率(CNS ) A4规格(210X297公釐) (請先閲讀背面之注$項再填寫本頁) 、Tr Μ -15 - 446838 經濟部中央橾準扃貝工消费合作社印装 A7 B7五、兮明説明(13 ) 一邊,而於此以外之邊上不設置突塊之點。 於此實施例中,亦於驅動用I C之信號電極用突塊 Bsi與掃描電極用突塊Bso之間設寬間隔A,進而,於液 晶面板之信號電極區Q si及掃描電極區Q so之間同樣地設 寬間隔A,使得可藉信號電極用導電構件2 3si將信號電 極Psi之全部予以覆蓋,且,可於兩導電構件2 3si及 2 3 so之間維持電氣絕緣用之空間。故,可使液晶面板 之顯示區之全部顯示檢査用影像而可進行檢査。 <第3實施例> 於圖2中,可將驅動用I C之信號電極用突塊Bsi與 掃描電極用突塊B so之間之間隔A,及液晶面板之信號電 極區Qsi及掃描電極區Qso之間之間隔A做成約〇 · 6 mm或其以上。依此種尺寸設定,可使信號電極用導電構 件1 3si做成比信號電極區Qsi呈側長約0 . 2mm *可 使掃描電極用導電構件1 3 so做成比掃描電極區Q so單側 長約0 . 2mm,故*信號電極用導電構件1 3si與掃描 電極用導電構件1 3 so之間隔可設定爲約0 . 2mm。若 將各構件之尺寸關係設定如上,信號電極區Qsi或掃描電 極區Q so對液晶面板之基準外型面之位置偏移公差成 ±0 . 2mm*此公差,比先前之實施例之±0 . 1mm 之公差更大之故,可使檢査液晶面板之製程範圍及液晶面 板單體之顯示特性時之位置偏移範圍變寬。 (請先閲讀背面之注f項再填寫本Κ ) ,1Τ 本紙張尺度適用t國國家標率(CNS ) Μ规格(210X297公釐) -16 - 4468 3 8 經濟部中央樣率扃員工消費合作社印装 A7 B7__五、發明説明(U ) * <第4實施例> 於圖2中,可將驅動用I C之信號電極用突塊Bsi與 掃描電極用突塊B so之間之間隔A,及液晶面板之信號電 極區Q si及掃描電極區Q so之間之間隔A做成約1 . 〇 mm或其以上•依此種尺寸設定,可使信號電極用導電構 件1 3si做成比信號電極區Qsi單側長約〇 . 3 5mm, 可使掃描用導電構件1 3 so做成比掃描電極區Q so單側長 約0 . 35mm,故,信號電極用導電構件13si與掃描 電極用導電構件1 3 so之間隔可設定爲約0 . 3mm。若 將各構件之尺寸關係設定如上,信號電極區Qsi或掃描電 極區<3 so對液晶面板之基準外型面之位置偏移公差成 〇 3mm*此公差•比先前之實施例之±0 . 2之公差 更大之故,可使檢査液晶面板之製程範圍及液晶面板單體 之顯示特性時之位置偏移範圍變寬。 <第5實施例> 圖5表示本發明之驅動用IC及液晶面板各別之進一 步之其他之實施例之要部。此實施例之驅動用1 C 3 1與 圖2所示之先前之驅動用I C 1 1之不同點在於’將信號 電極用突塊Bsi集中於驅動用I C 3 1之一邊上予以配列 ,將掃描電極用突塊B so於驅動用IC3 1之另一邊分割 配列之點*另,於驅動用I C 3 1之僅一邊上配列信號電 極用突塊Bsi,僅於另一邊上配列掃描電極用突塊BS0亦 可*又,只要於驅勸用I C 3 1之任意一邊上將信號電極 本紙張尺度適用中國國家樣準(CNS M4規格(210X297公釐) (請先閱讀背面之注—項再填寫本頁) -17 - Λ 468 3 8 經濟部中央標隼局男工消费合作社印製 A7 B7 五、發明説明(15 ) * 用突塊Bsi與掃描電極用突塊B so相互不混存地配列•將 信號電極用突塊Bsi與掃描電極用突塊B so配列在那一邊 皆可。 依以上之構成,可確保信號電極區Qsi與掃描電極區 Q so之間之間隔A足夠大之故,可於液晶面板之顯示區之 全部顯示検査用影像而檢査顯示特性。又,可將信號電極 區Qsi或掃描電極區Q so對液晶面板之基準外型面之位置 偏移公差進一步做成更大之故,可將液晶面板之製程範圍 及檢查液晶面板單體之顯示特性時之位置偏移範圍進一步 變寬。 <第6實施例> 圖6表示本發明之液晶裝置作爲電子機器之行動電路 之顯示部使用之情況之實施例。此處所示之行動電話乃含 上盒體2 6及下盒體2 7而構成。於上盒部2 6上設有收 發訊用之天線28,及鍵盤單元29,及麥克風32»而 ,下盒體2 7上設有例如圖1所示之液晶裝置1 ·喃ί叭 33,及電路板34。 電路板3 4上,如圖7所示,設有連接於喇叭3 3之 輸入端子上之受訊部3 8,及連接於麥克風3 2之输出端 子上之發訊部37,及含有CPU而構成之控制部36, 及供給各部電力之電源部3 9。控制部3 6讀取發訊部 3 7及受訊部3 8之狀態,基於其結果將資訊供給於驅動 用I C1 1,於液晶裝置1之顯示區顯示可視資訊。又, 本紙張尺度適用中國國家標準(CNS } A4规格(210X297公釐) (諳先聞讀背面之注意事項再填寫本頁} -» -18 - 4468 3 8 A7 B7 五、舞明説明(1β ) 控制部3 6基於由鍵盤單元2 9所輸出之資訊,將資訊供 動用I C,而於液晶裝置1之顯示區顯示可視資訊 〇 (請先閲讀背面之注意事項再填寫本頁) 於本實施例之行動電話所用之液晶裝置1,亦如圖2 所示’於驄動用I Cl 1之掃描電極用突塊B so及信號電 極用突塊Bsi之間形成寬間隔A,進而,於液晶面板之掃 推ί «極區Q so及信號電極區Qsi之間亦同樣地形成寬間隔 A。 <發明之效果> 經濟部中央標準局貝工消费合作社印製 依請求項1之驅動用I C,於信號電極用電極端子與 掃描電極用電極端子之間設有寬間隔之故,於與這些導電 連接之液晶面板側之信號電極與掃描電極之間亦可形成寬 間隔β其結果,使信號電極用導電構件與這些信號電極之 全部接觸*進而使掃描電極用導電構件與這些掃描電極之 全部接觸,亦可於兩導電構件間維持經常之電氣絕緣用空 間。即,不會使信號電極用導電構件與掃描電極用導電構 件短路,可對全部之信號電極導通信號電極用導電構件, 進而對全部之掃描電極導通掃描電極用導電構件,因此, 可使液晶面板之顯示區之全部顯示檢査用影像而可檢査其 顯示特性之良否· 依請求項2及3之驅動用I C,可配合液晶面板側之 信號電極及掃描電極之配列圓案,自由選定驅動用I C之 電極端子之配列圓案》 本紙張尺度逋用中國國家標準(CNS Μ4規格(210X297公釐) -19 - 經濟部中央揲準局負工消费合作社印装 4 468 3 8 Λ7 Α7 ___Β7 _五、岢明説明(17) _ 請求項4之驅動用IC係爲於液晶面板之透明基板上 將形成信號電極及掃描電極時之尺寸公差,設定爲現今製 造上可實現之最小公差,即約±0.1mm之情況爲對象 。如此,可防止導電構件材料間之短路,可使液晶面板之 顯示區之全部顯示而可進行檢查之外*可於可能之範圍內 將驅動用I C及液晶面板小型化。 依請求項5之驅動用I C,與請求項4之驅動用I C 相比,液晶面板之製造上之公差可取成更大之故,可將液 晶面板之製程範囫及檢査液晶面板單體之顯示特性時之位 置偏移範圍擴大* 依請求項6之驅動用I C,與請求項4及5之驅動用 I C相比,液晶面板之製造上之公差可取成更大之故•可 將液晶面板之製程範圍及檢査液晶面板單體之顯示特性時 之位置偏移範圍進一步擴大* . 依請求項7之液晶面板·信號電極與掃描電極之間形 成寬間隔之故》即使使其信號電極全部與信號電極用導電 構件接觸,進而使其掃描電極全部與掃描電極用導電構件 接觸,兩導電構件間亦可經常維持電氣絕緣用空間。即> 信號電極用導電構件與掃描電極用導電構件不會短路,可 對全部之信號電極導通信號電極用導電構件,進而,可對 全部之掃描電極導通掃描電極用導電構件,因此,可使液 晶面板之顯示區全部顯示檢査用影像,而可檢査其顯示特 性之良否。 依請求項8及9之液晶面板,自將液晶面板側之信號 本紙張尺度適用t國國( CNS ) 210χ297-ώ·|| ) -20 - 4468 3 8 A7 _B7 _ 五、兮明説明(IS ) 電極及掃描電極之配列圖案因應所需自由選定β 請求項1 0之液晶面板,係將透明基板上信號電極及 掃描電極形成時之尺寸公差•設定爲現今製造上可實現之 最小公差,即約±0 · lmm之情況爲對象》如此’可防 止導電構件間之短路,可使液晶面板之顯示區全部顯示而 可進行檢査之外,可於可能之範圍使驅動用1 (:及液晶面 板小型化* 依請求項11之液晶面板’與請求項1〇之驅動用 I C相比,液晶面板之製造上之公差可取成更大之故’可 將液晶面板之製程範圍及檢査液晶面板單體之顯示特性時 之位置偏移範圍擴大。 依請求項1 2之液晶面板’與請求項1 〇及1 1之液 晶面板相比,液晶面板之製造上之公差可取成更大之故’ 可將液晶面板之製程範圍及檢査液晶面板單體之顯示特性 時之位置偏移進一步擴大。 依請求項13之液晶裝置及請求項14之電子機器· 其中所含之液晶面板,可將其顯示區全面地顯示檢査用影 像而進行檢査之故,可減低將不良品之液晶面板誤組裝入 液晶裝置或電子機器內。 <圓面之說明> 圖1 :本發明之驅動用I C,液晶面板及液晶裝置各 別之一實施例之平面圖。 圖2 :將圓1之要部予以模式化表示之平面圓。 ί紙張尺度適用中國Η家標準(CNS ) A4規格(210X297公釐) ~" -21 - (請先閱讀背面之注意事項再填寫本頁) -订 經濟部中央搮準局貝工消费合作社印农 4468 3 8 A7 B7 經濟部中夹揉準局貝工消费合作社印装 五、 f明説明 (19 ) I 圖 3 * 表 示 圖 1 之液 晶 裝 置 之斷 面 構 造 之 斷 面 圖 〇 1 1 I i tali 圃 4 : 本 發 明 之 驅 動 用 I C 之其 他 實 施 例 及 本 發 明 1 1 之 液 晶 面 板 之 其 他 實 施 例 之 要 部 之各 別 予 以 模 式 化 表 示 之 ί i 請 I I 平 面 ΠΒΠ 圈 0 先 閲 1 ί 1 1 圖 5 : 本 發 明 之 驅 動 用 I C 之進 — 步 之 其 他 實 施 例 , 背 1 之 1 及 本 發 明 之 液 晶 面 板 之 進 一 步 之 其他 實 施 例 之 要 部 之 各 別 注 意 1 事 1 予 以 模 式 化 表 示 之 平 面 rat 圈 項 再 1 填 圚 6 ; 本 發 明 之 電 子 機 器 之 —實 施例 之 分 解 表 示 之 立 寫 本 頁 1 體 圖 β 1 圖 7 : 表 示 圖 6 之 電 子 機 器 所用 之 控 制 系 統 之 —^ 例 之 1 1 電 路 方 塊 圖 〇 1 1 圖 8 習 知 之 驅 動 用 I C 之 一例 及 習 知 之 液 晶 面板 之 訂 1 —' 例 之 要 部 予 以 各 別 模 式 化 表 示 之平 面 圖 • 1 1 I < 符 號 說 明 > 1 1 1 • 液 晶 裝 置 1 I 2 a 2 b 透 明 基 板 1 1 3 膜構 件 1 1 4 ·· 液 晶 1 1 5 ; 液 明 面 板 I 6 : 偏 光 板 t ί 7 ; 隔 板 1 ! 1 8 : 導 電 材 1 9 · A C F 1 1 本紙張尺度適用中國國家梂率(CNS > A4規格(210X297公釐) -22 - 4468 3 8 經濟部中央揉率局貝工消费合作社印策 A7 B7五、兮明説明(20 ) 1 1 ·_驅動用I C Bsi:信號電極用突塊(信號電極用電極端子) B so:掃描電極用突塊(掃描電極用電極端子) 1 3si:信號電極用導電構件 1 3 so:掃描電極用導電構件 2 1 :驅動用I C 2 3si:信號電極用導電構件 2 3 so:掃描電極用導電構件 2 6 :上盒體 2 7 :下盒體 3 2 :麥克風 3 4 :電路板 A :信號電極用電極端子與掃描電極用電極端子之間 隔,及信號電極與掃描電極之間隔 B : I C裝著區 P si :信號電極 P so :掃描電極 Q si :信號電極區 Q so :掃描電極區 (請先閱讀背面之注意事項再填寫本頁) 本紙張尺度遥用中國國家梯率(CNS ) A4規格(210X297公釐} -23 -Printed by the Shellfish Consumer Cooperative of the Central Bureau of Standards and Quarantine of the Ministry of Economic Affairs 4 4 6 8 3 8 a7 _B7 V. Description of Invention (1) < Technical Field to which the Invention belongs > The present invention relates to a liquid crystal device formed by driving an IC, a liquid crystal panel, and a liquid crystal driving IC mounted on the liquid crystal panel, and an electronic device using the liquid crystal device. < Knowledge > In recent years, liquid crystal devices used as visual information display sections in mobile phones, digital cameras, video cameras, and various other electronic devices have been widely used. When a liquid crystal device is used on a mobile phone, the liquid crystal device is used to display phone numbers and other information. In addition, when a liquid crystal device is used in a digital camera or a video recorder, the liquid crystal device is often used as a viewfinder for confirming the subject. 0 A liquid crystal device is generally formed by mounting a driving IC on a liquid crystal panel. In particular, in the broadcastable information terminal device represented by the mobile phone * Because of the advantages of low price and low power consumption, a small liquid crystal device is used. These small liquid crystal devices are generally driven by one driving IC, that is, a chip IC. Recently, a liquid crystal device in which a driving IC is directly mounted on a liquid crystal panel itself, that is, a COG (Chip On Grass) liquid crystal device. It is gradually gaining popularity. In this COG type liquid crystal device, a driving IC is directly bonded to a transparent substrate of a liquid crystal panel. At this time, an electrode terminal provided on the driving IC, that is, a bump or a sheet, is electrically connected to the electrode formed on the transparent substrate, that is, conductively connected. As shown by circle 8, the driving IC 5 1 generally has the standard of two papers (CNS) A4 (2 丨 0X297 mm) on the scanning electrode Psi on the side of the LCD panel. Please pay attention to this page and fill in this page) -4-〃 446838 A7 B7 Printed by the Central Standards Bureau of the Ministry of Economic Affairs—Industrial and Consumer Cooperatives 5. Explanation of Ximing (2) Electrode terminals Bsi for conductively connected signal electrodes, and scanning on LCD panels The scanning electrode electrode terminal B so β which is electrically connected to the electrode P so and the conventional driving IC 51 are the signal electrode electrode terminal Bsi and the scanning electrode electrode terminal B so are connected to the signal electrode electrode terminal B si The distance between them is the same as the distance between the electrode terminals B so for the scanning electrodes. The distance is generally 80 ~ 1 2 Ojum * < Problems to be Solved by the Invention > In a normal manufacturing process of a liquid crystal device, in order to check whether a liquid crystal panel has desired display characteristics, a signal electrode P of the liquid crystal panel is mounted on the liquid crystal panel before a driving IC is installed in the liquid crystal panel. A predetermined voltage is added to si and the scan electrode P so, and the number of liquid crystal panels is mostly inspected by a single person. When such a predetermined voltage is applied, the conductive member 5 3si for the signal electrode is brought into contact with the signal electrode Psi, and the conductive member 5 3 so for the scan electrode is brought into contact with the scan electrode P so. These conductive members 5 3si and 5 3 so is a display inspection circuit 5 2 A predetermined voltage is applied to each electrode Psi and Pso. However, regarding the case where the conventional liquid crystal panel of the driving IC 51 is used for inspection, the conventional driving IC 51 series of signal electrode electrode terminals Bsi and scan electrode electrode terminals B so are spaced apart from each other. Adjacent to the same distance, each of the electrodes P si and P so corresponding to all the electrode terminals existing in the boundary portion of these electrode terminals is brought into contact with the conductive members 5 3 si and 5 3 so. These conductive properties The members 5 3si and 5 3 so will contact each other and short-circuit, making inspection impossible. In order to avoid short circuit, the conductive member for signal electrode 5 3si (please read the precautions on the back before filling out this page) This paper size is suitable for 8® home (CNS > A4 size (210X297) %) -5-Printed by the Central Ministry of Economic Affairs and Consumers Cooperatives 44683 8 A7 _B7 V. Description of the invention (3) The interval between the conductive member for scanning electrodes 5 3 s0 is wide. A predetermined voltage cannot be applied to the electrode part of the conductive member, so that a part of the display area of the liquid crystal panel cannot be displayed. This type of liquid crystal panel using conventional ICs for mobile use corresponds to the inability to make conductive. When the liquid crystal panel of the electrode portion contacted by the components 5 3si and 5 3 so is defective, the defect cannot be found. As a result, the resulting liquid crystal device has a defective liquid crystal panel, which results in a low yield and a problem of increased cost. It is made in view of the problems mentioned above, and when inspecting the display characteristics of the liquid crystal panel, the purpose is to inspect the entire display area of the liquid crystal panel. The present invention also borrows Kuang drive with a poor mounting of the liquid crystal panel I C reliably excluded, and to provide a liquid crystal apparatus for the purpose of low-cost ° < Method for solving the problem > The driving IC related to the present invention is a driving IC for driving a liquid crystal panel having a plurality of scanning electrodes and a plurality of signal electrodes, and has a plurality of scanning electrodes for each A plurality of electrode terminals for scanning electrodes to be electrically connected, and a plurality of electrode terminals for signal electrodes to be electrically connected to the respective plurality of signal electrodes. The 1 C for driving is to form a wider interval between the electrode terminals for the scanning electrode and the electrode terminals for the signal electrode than the distance between the electrode terminals for the scanning electrode and the electrode terminals for the signal electrode. . In this way, the electrode terminals for signal electrodes and electrode terminals for scan electrodes (please read the precautions on the back before filling in this page) The paper size is in accordance with China National Standard (CNS) Α4 size (2 丨 〇297mm) 44683 8 Printed by the Central Bureau of Standards of the Ministry of Economic Affairs and Consumer Cooperatives A7 B7 V. Description of the invention (4) «If a wide interval is set, a wide gap can also be formed between the signal electrode and the scanning electrode on the side of the LCD panel that is electrically connected to these As a result, when the signal electrode and the scanning electrode are brought into contact with the conductive member for the purpose of inspecting the liquid crystal panel, even if the m-electrode portion including the electrode existing in these boundary portions is brought into contact with the conductive member, the signal electrode may be conductive. The space for electrical insulation is often maintained between the conductive member and the conductive member for the scanning electrode. That is, the signal electrode conductive member and the scanning electrode conductive member are not short-circuited, and the signal electrode conductive can be conducted to all signal electrodes. The conductive member is turned on, and further, the conductive member for the scanning electrode can be turned on for all the scanning electrodes, so that the display area of the liquid crystal panel can be completely The display image can be used to check the quality of the display characteristics of the liquid crystal panel. There are various methods for arranging the electrode terminals in the driving IC. For example, as shown in FIGS. 2 and 圊 4, the electrodes for the scanning electrodes are used. The terminal B so and the signal electrode electrode terminal Bsi are arranged in a row along the same side of one of the driving ICs 1 1 and 21, and the electrode terminals B so and B si can be formed more than each other of the electrode terminals for the scanning electrodes. The interval between the electrode terminals for signal electrodes and the interval between signal electrodes is wider. A * The interval between the electrode terminals for signal electrodes and the electrode terminals for scan electrodes is not limited to a specific value, but may be, for example, 0.3 mm or more. The value is ideally about 0 3 mm. The reason why 0. 3 mm is ideal is as follows: that is, in FIG. 2, the dimensions of the signal electrode P si and the scan electrode P so formed on the transparent substrate of the liquid crystal panel are permissible in manufacturing. The error is the standard deviation of the dimensions of the reference profile of the liquid crystal panel (hereinafter referred to as "tolerance"). The minimum value that can be manufactured is about 0.1mm. Therefore, the signal (please read the precautions on the back first) Please fill in this page again) k · This paper size is applicable to Chinese National Standard (CNS) A4 specification (210X297 mm) -7-4468 3 8 a? B7 V. Description of the invention (5) Electrode Psi and scan electrode P so are conductive The maximum value within the tolerances of members 1 3 si and 1 3 so, that is, in order to prevent these electrodes Psi and P so from deviating to the outside of conductive members Bsi and 1 3 so, even if the deviation is only 0.1 mm, conductive The characteristic members 1 3si and 1 3 so protrude from the signal electrode region Qsi and the scanning electrode region Q so of the area where the electrodes Psi and Pso are provided, that is, the distance a protruding from the electrode terminals Bsi and B so must be set to a = 0.1 mm. In order to prevent adjacent conductive members 1 3 s i and 1 3 so from coming into contact with each other, it is necessary to keep a minimum interval of about 0.1 mm between them. From the above, the minimum distance A between the electrode terminal Bsi for the signal electrode and the electrode terminal B so for the scan electrode also needs to be A = a + b + a = 0.1 + 1 · 0.1 + 0.1 = 0.3. Printed by the Central Government Bureau of the Ministry of Economic Affairs, Shellfish Consumer Cooperatives (please read the note on the back before filling in this page) Also, the interval A between the electrode terminal B Si for the signal electrode and the electrode terminal B so for the scanning electrode is set. 6mm or more. For example, if it is made 0.6 mm, the allowable protruding size a of the electrodes Bsi and Bso of the conductive members 1 3si and 1 3 so may be made a = 0.2 mm, and the adjacent conductive members 1 3si and 1 3 so The interval b between each other can be made t) = 0.2 mm, and the dimensional tolerance of the signal electrode and the scanning electrode formed on the liquid crystal panel can be widened up to ± 0.2 mm, so the manufacturing of the liquid crystal panel becomes simple. Of course, when the display characteristics of the liquid crystal cell are checked, the conductive member for the signal electrode and the conductive member for the scan electrode can be reliably prevented from being short-circuited, and the conductive member for the signal electrode can be turned on for all the signal electrodes. The conductive members for the scanning electrodes are turned on for all the scanning electrodes. Furthermore, the electrode terminals Bsi for the signal electrodes and the electrode terminals for the scanning electrodes are in accordance with the Chinese National Standard (CNS) A4 gauge (210X297 mm) -8 ~ Economy. The Central Sample Prototype Bureau, Shellfish Consumer Cooperative, Benben * 4468 3 8 A7 _B7 V. Wuming Note (6) The interval set between the sub-Bso can be made 1 · Omm or more ", such as 1 · 0 m τη, Then the allowable protruding size a of the signal electrodes Bsi and BS0 of the conductive members 1 3 si and 1 3 so can be made a = 0.5 mm, and the interval b between the adjacent conductive members 1 3 si and 1 3 so is b. Can be made b = 0.3mm, the dimensional tolerance of the signal electrode and the scanning electrode formed on the liquid crystal panel can be widened to ± 0.35mm, so the manufacturing of the liquid crystal panel can be simpler. Of course, the signal electrode is conductive Component and guide for scanning electrode The short circuit of the conductive member can be almost completely prevented, and the conductive member for the signal electrode can be almost completely turned on for all the signal electrodes, and the conductive member for the scanning electrode can be almost completely turned on for all the scanning electrodes. The invention of the liquid crystal panel is a liquid crystal panel having a pair of transparent substrates that support the liquid crystals facing each other, a plurality of scanning electrodes formed on one of these transparent substrates, and a plurality of scanning electrodes formed on these transparent substrates. The other is a plurality of signal electrodes, and an IC mounting area for driving ICs formed on any of these translucent substrates. * The scan electrodes of the plural and the signal electrodes of the plural extend to Up to the IC mounting area mentioned above * Furthermore, the adjacent scanning electrodes and signal electrodes in this IC mounting area have a wider interval than the interval between the scanning electrodes and the interval between the signal electrodes. Here, "through "Optical" refers to both colorless and transparent and colored and transparent. In this way, if a wide gap is formed between the signal electrode and the scan electrode, even if the signal electrode All of them are in contact with the conductive member for the signal electrode, and at the same time, all the scanning electrodes are in contact with the conductive member for the scan electrode, and the conductive member for the signal electrode and the conductive member for the scan electrode can also be constantly maintained (please read the "back" first) Please fill in this page with note f.) This paper size uses China National Standards (CNS) A4 specifications (210X297 mm) -9-4468 3 8 Printing policy A7 B7 by the Central Laboratories of the Ministry of Economic Affairs Description of the invention (7) "Space for electrical insulation", that is, the conductive member for the signal electrode and the conductive member for the scan electrode are not short-circuited, and the conductive member for the signal electrode can be turned on for all the signal electrodes, and can be used for all Since the scanning electrode is connected to the conductive member for the scanning electrode, the liquid crystal panel can be used to check the display characteristics of all the display areas. The method of arranging the signal electrode and the scanning electrode of the liquid crystal panel can be considered various methods. For example, as shown in FIG. 2 or circle 4, the scan electrode Pso and the signal electrode Psi are arranged in a row along the same side of one of the IC mounting areas for driving the IC 1 1 or 21, and the IC is mounted with blue. The electrodes P so and Psi can form a wider interval than the interval between the scanning electrodes and the interval between the signal electrodes. In addition to this alignment method, as shown in FIG. 5, the scan electrodes P so and the signal electrodes Psi are respectively disposed along adjacent sides of the IC mounting area, and can be formed between these electrodes P so and Psi. The interval A is wider than the interval between the scanning electrodes and the interval between the signal electrodes. In the LCD panel described above, the interval between the scanning electrode region Q so and the signal electrode region Qsi in the IC mounting area is equal to the interval A between the scanning electrode electrode terminal B so and the signal electrode electrode terminal Bsi, and its value is The value can be 0.3 mm or more, 0.6 mm or more, or 1 mm or more. The reason for each value is the same as the reason for the same value in the case of 1 c for driving as described above. Secondly, the liquid crystal device of the present invention includes a liquid crystal panel having a pair of light-transmitting substrates opposite to each other that holds the liquid crystal, and a driving IC c mounted on at least one of the light-transmitting substrates. The panel has a national standard (CNS) A4 specification (210X297 mm) formed on the paper scale (please read the note on the back before filling this page) Order -10-4468 3 8 Central Ministry of Economic Standards 扃A7 B7 printed by a consumer cooperative. V. Explanation (8) A plurality of scanning electrodes on one of these transparent substrates, and a plurality of signal electrodes formed on the other of these transparent substrates. An IC mounting area for mounting the driving IC on any of these light-transmitting substrates. The scan electrode of the above plural number, the signal electrode of the plural above, and the extension to the mounting area of the above I c are formed. On the other hand, the above-mentioned driving IC has a plurality of electrode terminals for scanning electrodes which are electrically connected to the plurality of scanning electrodes respectively, and a plurality of electrode terminals for signal electrodes which are electrically connected to each of the plurality of signal electrodes. Adjacent scan electrode electrode terminals and signal electrode electrode terminals form a wider interval than the interval between the scan electrode electrode terminals and the signal electrode electrode terminals *. Furthermore, the scan electrode of the driver IC is further extended. The scanning electrode of the liquid crystal panel is conductively connected to the electrode terminal and the signal electrode of the liquid crystal panel is conductively connected to the signal electrode of the driving IC to form a liquid crystal device. Second, the electronic device of the present invention has the liquid crystal device described above * and The power supply unit that supplies power to the liquid crystal device, and the control unit that controls the operation of the liquid crystal device. Specifically, the liquid crystal device described above can be used as a visual information display unit in mobile phones, digital cameras, video recorders, and other various electronic devices. . < An embodiment of the invention > < First Embodiment > Fig. 1 shows an embodiment of a driving IC, a liquid crystal panel, and a liquid crystal device according to the present invention. The liquid crystal device 1 shown here is based on the Chinese paper standard (CNS) A4 (210X297 mm) of the paper size of the LCD panel. (Please read the note f on the back before filling this page) -11-4468 3 8 Printed by A7 _ B7_ of the Bayong Consumer Cooperative of the Central Sample Bureau of the Ministry of Economic Affairs. 5. Description of the invention (9) 5 It is formed by mounting a driver IC 1 1. The liquid crystal panel 5 has a pair of transparent substrates 2 a and 2 b facing each other. These transparent substrates 2 a and 2 b are adhered to each other by the film material 3 while maintaining a very small gap G by the spacer 7 as shown in FIG. 3. . This interval G is generally called CELL GAP * This G is enclosed in liquid crystal 4. On the outer surfaces of the transparent substrates 2a and 2b, polarizers 6, 6 are attached as necessary, and a transparent or reflective plate is provided on the transparent substrate on the other side. A plurality of signal electrodes Psi are formed on the inner surface of one transparent substrate 2a *, and a plurality of scan electrodes Pso are formed on the inner surface of the other transparent substrate 2b. These electrodes' are formed in a strip shape by, for example, 1 TO (Indium Tin Oxide), and then as shown in FIG. 1, the two transparent substrates 2a and 2b are perpendicular to each other in a bonding state. The intersections of the scan electrodes P so and the signal electrodes P si function as pixels for liquid crystal display. The transparent substrate 2 a on the side protrudes to the outside of the transparent substrate 2 b on the opposite side. Set the rectangular IC mounting area B 'The IC mounting area B is followed by the driving IC 1 1. The signal electrode Psi extends as it is to the IC mounting area B. On the other hand, the scan electrode P so extends to the I C mounting area B through the conductive material 8 across the two transparent substrates 2 a and 2 b. The driving I Cl 1 is shown in FIG. 3, and is bonded to the transparent substrate 2 a through an ACF (Antisotropic Conductive Film) 9 or other bonding agent. The driving IC 1 1 is on the transparent substrate 2 a. On the opposite side, that is, on the moving surface, as shown in FIG. 2, a plurality of electrode terminals for signal electrodes, that is, a signal electrode bump Bsi, and a plurality of electrode terminals for scanning electrodes are formed. This paper size applies Chinese national standards ( CNS) A4 grid (210X297 mm) (read the "Notes on the back side before filling out this page) -12-4468 3 8 Central Standards of the Ministry of Economic Affairs 印 Male Workers' Consumer Cooperatives Co., Ltd. $ ί A7 _B7 V. Description of the invention (10 ) That is, the scanning electrode bump Bsi. The signal electrode bump Bsi electrically connects the internal circuit of the driving IC 1 1 and the signal electrode Psi, and the scan electrode bump B so electrically connects the internal circuit of the driving IC 1 1 and the scanning electrode P so . In this embodiment, the bumps Bsi for the signal electrodes and the bumps Bso for the scanning electrodes are each separated by a narrow distance, for example, 80 to 1 2 0, and the distance between the protrusions is aligned. It also narrows accordingly. In this regard, the interval A between the signal electrode bump Bsi and the scan electrode bump Bs0 is wider than the distance between electrodes of the same type, and is set to about 0.3 mm, for example. In addition, the interval between the signal electrode region Qsi in the region where the signal electrode Psi is disposed and the scan electrode region Q so in the region where the scan electrode P so is disposed, and the interval between the signal electrode terminal Bsi and the scan electrode terminal B so The interval A is equal. The driving IC, the liquid crystal panel, and the liquid crystal device of this embodiment are configured as described above. When the driving IC 11 is mounted in front of the liquid crystal panel 5 and the display characteristics of the liquid crystal panel 5 are checked with a liquid crystal monomer, such as a circle As shown in FIG. 2, a conductive member 1 3 si for a signal electrode and a conductive member 1 3 so for a scanning electrode are provided at predetermined positions, and the conductive member 1 3si for the signal electrode is brought into contact with the signal electrode Psi to make the scanning electrode conductive. The member 1 3 so is in contact with the scan electrode P so. Various conductive members 13si and 1 3 so can use various members such as conductive rubber, rubber connector * ACF, this example uses a simple and inexpensive conductive rubber * In addition, the conductive rubber is a rubber with uniform conductivity as a whole Component, put it on a plurality of electrodes, these electrodes will be short-circuited * Also, rubber --------- ------- ΐτ ------ V {Please read the back Note: Please fill in this page again.) The size of this paper is applicable to China National Standard (CNS) Α4 specification (2 丨 0 X 297mm) 4468 3 8 ; Note (11) The leather connector is a connector formed by arranging conductive materials at appropriate intervals in an insulating elastic member. The terminals connected by the conductive material are in a conductive state with each other, but the terminals without the pen-conductive material are in a non-conductive state with each other. Also, ACF is a film formed by mixing conductive particles in an insulating resin material. A component that keeps the terminals with conductive particles in contact with each other, and maintains the terminals with no conductive particles in a non-conducting state. Each of the electrodes Psi and Pso described above and each conductive member 1 After contacting 3 si and 1 3 so, a predetermined voltage is applied from the display inspection circuit 14 to each of the conductive members 1 3 si and 1 3 so, thereby performing a predetermined display on each pixel of the liquid crystal panel 5, such as White or black • This display judges whether there is a defect in the display area of the LCD panel 5 by camera or visual observation. In this embodiment, as described above, regarding the driving IC 1 1, a wide interval A is provided between the signal electrode bump Bsi and the scan electrode bump BS0, which corresponds to the liquid crystal panel 5 in the signal electrode region Q si and scanning. In the same manner, a wide interval A is provided between the electrode regions Q so, so that the signal electrode conductive member 13 si is made longer than the signal electrode region Qsi tip. It can compensate the positional deviation of the conductive member 1 3si for the signal electrode and the signal electrode area Qsi, and can cover all of the signal electrode Psi with the conductive member for the signal electrode β, and by comparing the scanning electrode with the conductive member 1 3 so The scan electrode region Q so is slightly longer, which can compensate for the positional deviation of the scan electrode conductive member 1 3 so from the scan electrode region Q so, and the entire scan electrode P so can be covered with the scan electrode conductive member. Therefore, even so, all of the electrodes Psi and P so are divided into guides (please read the precautions on the back before filling this page). The paper size is in accordance with China's national standards (CNS > A4 size (210X297 mm) ) -14-4468 3 8 A7 ___B7 printed by Shellfish Consumer Cooperative of the Central Standards Bureau of the Ministry of Economy V. Ximing Note (12) The electrical components 1 3si and 1 3 so cover the two conductive components 1 3si and 1 3s. Space, the two can be maintained in an electrically insulated state. As a result, a predetermined inspection voltage can be added to all the signal electrodes Psi and the scan electrodes P so. Therefore, the entire display of the liquid crystal panel can be inspected. Good or bad "In addition, if the interval A between the signal electrode bump Bsi and the scan electrode bump B so and the interval between the signal electrode region Qsi and the scan electrode region Q so are set to 0 · 3mm, the signal electrode is conductive. The component 1 3si may be approximately 0.1 mm longer than one side of the signal electrode region Qsi, and the conductive member 1 3 so may be approximately 0-1 mm longer than one side of the scan electrode region Q so, so the conductive member 1 3si for the signal electrode and the scan electrode With conductive members 1 3 so The interval can be set to about 0.1mm * If the dimensional relationship of each component is set as above, the position deviation of the signal electrode area Qsi or the scanning electrode area Qso of the reference profile of the liquid crystal panel becomes ± 0.1mm. This tolerance is The manufacturing technology of today's liquid crystal panels is the smallest achievable tolerance. In this embodiment, after checking the display characteristics of the liquid crystal panel alone as described above * because the driving IC is mounted on this liquid crystal panel, the driving will not be driven The IC is mounted on a defective liquid crystal panel. Therefore, a low-cost liquid crystal device can be manufactured. < Second Embodiment > Fig. 4 shows the essential parts of another embodiment of the driving IC and the liquid crystal panel of the present invention. The difference between the driving IC 2 1 of this embodiment and the previous driving IC 1 1 shown in FIG. 2 is that the signal electrode bumps Bsi and the scan electrode bumps B so are concentrated on the driving IC 2 1. The same paper size applies to China's Standard for Domestic Standards (CNS) A4 (210X297 mm) (please read the note on the back before filling this page), Tr Μ -15-446838 Central Ministry of Economic Affairs Consumption cooperatives printed A7 B7 V. Ximing description (13) One side, and no bumps are set on the other side. In this embodiment, a wide interval A is also provided between the signal electrode bump Bsi of the driving IC and the scan electrode bump Bso, and further, the signal electrode region Q si and the scan electrode region Q so of the liquid crystal panel are provided. Similarly, a wide interval A is provided so that the entirety of the signal electrode Psi can be covered by the conductive member 23si for the signal electrode, and a space for electrical insulation can be maintained between the two conductive members 23si and 23so. Therefore, inspection images can be displayed on the entire display area of the liquid crystal panel and inspection can be performed. < Third Embodiment > In FIG. 2, the interval A between the signal electrode bump Bsi of the driving IC and the scan electrode bump B so and the signal electrode region Qsi and the scan electrode of the liquid crystal panel can be set. The interval A between the regions Qso is made about 0.6 mm or more. According to this size setting, the conductive member 1 3si for the signal electrode can be made about 0.2 mm longer than the signal electrode region Qsi side. * The conductive member 1 3 so for the scan electrode can be made one side longer than the scan electrode region Q so. The length is about 0.2 mm, so the distance between the conductive member for signal electrodes 13si and the conductive member for scan electrodes 13so can be set to about 0.2mm. If the dimensional relationship of each component is set as above, the position deviation tolerance of the signal electrode area Qsi or the scanning electrode area Q so to the reference profile of the liquid crystal panel is ± 0.2 mm *. This tolerance is larger than ± 0 of the previous embodiment. . The larger tolerance of 1mm can widen the range of position deviation when inspecting the process range of the LCD panel and the display characteristics of the LCD panel alone. (Please read the note f on the back before filling this K), 1T This paper size is applicable to the national standard rate (CNS) of the t standard (210X297 mm) -16-4468 3 8 Central sample rate of the Ministry of Economic Affairs 扃 Employee Consumer Cooperatives Printing A7 B7__ V. Description of the Invention (U) * < Fourth Embodiment > In FIG. 2, the interval A between the signal electrode bump Bsi of the driving IC and the scan electrode bump B so and the signal electrode region Q si and scanning of the liquid crystal panel can be set. The interval A between the electrode regions Q so is made about 1.0 mm or more. According to this size setting, the conductive member 1 3si for the signal electrode can be made about 0.3 mm longer than one side of the signal electrode region Qsi. The scanning conductive member 1 3 so can be made about 0.35 mm longer than one side of the scanning electrode region Q so. Therefore, the interval between the signal electrode conductive member 13 si and the scanning electrode conductive member 13 3 so can be set to about 0. . 3mm. If the dimensional relationship of each component is set as above, the signal electrode area Qsi or the scanning electrode area < 3 so Tolerance of the position deviation of the reference profile of the LCD panel is 0 3mm * This tolerance is larger than the tolerance of ± 0.2 in the previous embodiment, which allows inspection of the LCD process range and The position shift range in the display characteristics of the liquid crystal panel alone becomes wider. < Fifth Embodiment > Fig. 5 shows essential parts of still another embodiment of the driving IC and the liquid crystal panel of the present invention. The difference between the driving IC 1 1 of this embodiment and the previous driving IC 1 1 shown in FIG. 2 is that 'the signal electrode bumps Bsi are arranged on one side of the driving IC 31, and the scanning is performed. The electrode bump B so is divided and arranged on the other side of the driving IC3 1 * In addition, the signal electrode bump Bsi is arranged on only one side of the driving IC 3 1 and the scanning electrode protrusion is arranged on the other side only. BS0 can also * Also, as long as the signal electrode is used on either side of the IC 3 1 persuasion, the paper size is applicable to the Chinese national standard (CNS M4 specification (210X297 mm)) (Please read the note on the back-item before filling in this Page) -17-Λ 468 3 8 A7 B7 printed by Male Workers Consumer Cooperatives of the Central Bureau of Standards, Ministry of Economic Affairs 5. Description of the invention (15) * The bumps Bsi and the scan electrode bumps B so are aligned with each other. The signal electrode bumps Bsi and the scan electrode bumps B so may be arranged on either side. With the above structure, the gap A between the signal electrode region Qsi and the scan electrode region Q so can be ensured to be sufficiently large. Display all images in the display area of the LCD panel In addition, the position deviation tolerance of the signal electrode area Qsi or the scanning electrode area Q so on the reference profile of the liquid crystal panel can be further made larger, and the process range of the liquid crystal panel and the inspection of the liquid crystal panel can be further increased. The range of positional deviation in the display characteristics of the volume is further widened. < Sixth Embodiment > Fig. 6 shows an example of a case where the liquid crystal device of the present invention is used as a display portion of a mobile circuit of an electronic device. The mobile phone shown here is composed of an upper case 26 and a lower case 27. An antenna 28 for transmitting and receiving, a keyboard unit 29, and a microphone 32 »are provided on the upper box part 26, and the lower box body 27 is provided with, for example, a liquid crystal device 1 · 33 as shown in FIG. 1, And circuit board 34. As shown in FIG. 7, the circuit board 34 is provided with a receiving part 38 connected to the input terminal of the speaker 3 3, and a sending part 37 connected to the output terminal of the microphone 32, and a CPU containing the A control unit 36 is configured, and a power source unit 39 for supplying power to each unit. The control unit 36 reads the states of the transmitting unit 37 and the receiving unit 38, and based on the results, supplies information to the driving IC 1 1 and displays visual information in the display area of the liquid crystal device 1. In addition, this paper size applies the Chinese national standard (CNS) A4 size (210X297 mm) (谙 Please read the precautions on the back before filling out this page}-»-18-4468 3 8 A7 B7 5. Wuming Instructions (1β ) The control section 36 supplies information to the IC for use based on the information output by the keyboard unit 29, and displays visual information in the display area of the liquid crystal device 1. (Please read the precautions on the back before filling this page) In this implementation The liquid crystal device 1 used in the example mobile phone is also shown in FIG. 2 'a wide gap A is formed between the scanning electrode projection B so and the signal electrode projection Bsi of I Cl 1 for moving, and further, the liquid crystal panel Similarly, a wide interval A is formed between the polar region Q so and the signal electrode region Qsi. < Effects of the invention > The driving IC according to item 1 was printed by Shellfish Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs, and a wide gap was provided between the electrode terminals for signal electrodes and the electrode terminals for scan electrodes. A wide interval β may also be formed between the signal electrodes on the conductively connected liquid crystal panel side and the scan electrodes. As a result, the conductive members for the signal electrodes are in contact with all of the signal electrodes *, and the conductive members for the scan electrodes and the scan electrodes All contacts can also maintain a regular space for electrical insulation between two conductive members. That is, the conductive members for the signal electrodes and the conductive members for the scan electrodes are not short-circuited, the conductive members for the signal electrodes can be turned on for all the signal electrodes, and the conductive members for the scan electrodes can be turned on for all the scanning electrodes. The entire display area of the panel displays the inspection image to check its display characteristics. According to the driving ICs of Requests 2 and 3, it can cooperate with the arrangement of the signal electrodes and scanning electrodes on the LCD panel side, and freely select the driving application. The arrangement of the electrode terminals of the IC. This paper size uses the Chinese national standard (CNS M4 specification (210X297 mm). -19-Printed by the Central Consumers' Bureau of the Ministry of Economic Affairs, Consumer Work Cooperative, 4 468 3 8 Λ7 Α7 ___ Β7 _5岢 明明 (17) _ The driving IC of claim 4 is the dimensional tolerance when the signal electrode and the scanning electrode are formed on the transparent substrate of the liquid crystal panel, and it is set to the smallest tolerance that can be achieved in current manufacturing, that is, about ± 0.1mm is the object. In this way, short circuit between conductive materials can be prevented, and the entire display area of the liquid crystal panel can be displayed and inspected. In addition, the driving IC and LCD panel can be miniaturized as far as possible. According to the driving IC of claim 5, compared with the driving IC of claim 4, the manufacturing tolerances of the liquid crystal panel can be made larger. Therefore, the process range of the LCD panel and the position shift range when checking the display characteristics of the LCD panel alone can be expanded. * According to the driving IC of claim 6, compared with the driving IC of request 4 and 5, the liquid crystal The manufacturing tolerances of the panel can be made larger. • The process range of the LCD panel and the position shift range when checking the display characteristics of the LCD panel alone can be further expanded. * LCD panel · Signal electrode and The reason for the wide gap between the scanning electrodes "Even if all the signal electrodes are in contact with the conductive member for the signal electrode, and then all the scanning electrodes are in contact with the conductive member for the scan electrode, the space for electrical insulation can often be maintained between the two conductive members. That is, the conductive member for the signal electrode and the conductive member for the scan electrode are not short-circuited, and the conductive member for the signal electrode can be turned on for all the signal electrodes, and further, The conductive members for the scanning electrodes are turned on for all the scanning electrodes, so that the display area of the liquid crystal panel can be used to display the inspection image, and the quality of the display characteristics can be checked. The signal on the side of the paper is applicable to the country (CNS) 210x297-Free · ||) -20-4468 3 8 A7 _B7 _ V. The arrangement pattern of the electrode and scan electrode of Ximingming (IS) can be freely selected according to the requirements β The liquid crystal panel of claim 10 is the dimensional tolerance when the signal electrode and the scanning electrode on the transparent substrate are formed. It is set to the smallest tolerance that can be achieved in current manufacturing, that is, the case of about ± 0 · lmm. The short circuit between the conductive members can make all the display area of the liquid crystal panel displayable and can be inspected. In addition, it is possible to make the drive unit 1 (: and the liquid crystal panel miniaturized as far as possible * LCD panel according to request 11 and request) Compared with the driving IC of 10, the manufacturing tolerance of the liquid crystal panel can be made larger. 'The process range of the liquid crystal panel and the position of the display characteristics of the liquid crystal panel can be checked. The offset range is extended. According to the liquid crystal panel of claim 12 'Compared with the liquid crystal panels of claim 10 and 11', the manufacturing tolerances of the liquid crystal panel can be taken to be larger 'The process range of the liquid crystal panel and the inspection of the liquid crystal panel can be checked. The display deviation in the display characteristics is further enlarged. According to the liquid crystal device of claim 13 and the electronic device of claim 14, the liquid crystal panel included therein can inspect the display image on the display area in a comprehensive manner, which can reduce the misassembly of defective liquid crystal panels. LCD device or electronic equipment. < Description of a circular surface > Fig. 1: A plan view of an embodiment of a driving IC, a liquid crystal panel, and a liquid crystal device according to the present invention. Figure 2: A plane circle in which the major parts of circle 1 are represented in a pattern. ί The paper size is applicable to the Chinese Family Standard (CNS) A4 specification (210X297 mm) ~ & -21-(Please read the precautions on the back before filling this page) Nong 4468 3 8 A7 B7 Printed by the Ministry of Economic Affairs of the Zhuhai Bureau Shellfish Consumer Cooperative Co., Ltd. F. Description (19) I Fig. 3 * A cross-sectional view showing the cross-sectional structure of the liquid crystal device of Fig. 0 1 1 I i tali garden 4: other embodiments of the driving IC of the present invention and other embodiments of the liquid crystal panel of the present invention 1 1 are shown in a patterned form i Please II Plan II ΠΠΠ Circle 0 Read 1 ί 1 1 Figure 5: Progress of the driving IC of the present invention-other steps, as shown in Fig. 1 and the other parts of the liquid crystal panel of the present invention. Show the flat rat circle item 1 and fill in 6; The electronic device of the present invention-the embodiment of the embodiment is shown on the page 1 Figure β 1 Figure 7: The control system used in the electronic device of Figure 6-^ Example 1 1 Circuit block diagram 〇1 1 Figure 8 Example of a conventional driving IC and order 1 of a conventional LCD panel — 'The plan view of the main part of the example is shown in a separate pattern • 1 1 I < Explanation of symbols > 1 1 1 • Liquid crystal device 1 I 2 a 2 b Transparent substrate 1 1 3 Film member 1 1 4 · Liquid crystal 1 1 5; Liquid crystal panel I 6: Polarizing plate t ί 7; Separator 1 1 8 : Conductive material 1 9 · ACF 1 1 This paper size is applicable to China's national standard (CNS > A4 specification (210X297 mm) -22-4468 3 8 B7 V. Ximing Explanation (20) 1 1 · _Drive IC Bsi: Signal electrode bump (electrode terminal for signal electrode) B so: Scan electrode bump (electrode terminal for scan electrode) 1 3si: Signal electrode 1 3 so: conductive member for scanning electrode 2 1: driving IC 2 3si: conductive member for signal electrode 2 3 so: conductive member for scanning electrode 2 6: upper case 2 7: lower case 3 2: Microphone 3 4: Circuit board A: Signal The distance between the electrode terminal and the scan electrode electrode terminal, and the distance between the signal electrode and the scan electrode B: IC mounting area P si: Signal electrode P so: Scan electrode Q si: Signal electrode area Q so: Scan electrode area (please Please read the notes on the back before filling this page) This paper uses China National Slope (CNS) A4 size (210X297 mm) -23-